Absolute fluid filter

ABSTRACT

The novel filter, according to an embodiment thereof, comprises a filter matrix formed into a specific geometry and made of glass, metal, mineral and/or cellulostic fibers, or fibers or fiber-agglomerates molded from thermoplastic, thermoset plastic, elastoplasts, or related synthetic polymer materials, which have been coated, impregnated, or compounded, prior to forming, with a series of substances in order that the filter may be easily cleaned and reused, as well as protected against corrosive action by the fluid media, or to render substances in the filtration fluid media chemically unreactive, or to change the chemical state or structure of matter in the fluid media. The coating compounds, filler compounds, or impregnants, depending upon which thereof are employed, change the physical properties of the filter matrix and alters impaction-retention of filtered particles, and/or alters the electrostatic attraction of the matrix for matter in the fluid media, and/or imparts corrosion protection to the filter matrix, and/or renders matter in the fluid media chemically unreactive by changing its reactivity characteristics or chemical structure upon contact with the matrix.

This invention pertains to fluid filters for removing components such as particulate matter from gas streams, and in particular to an improved fluid filter of the absolute type.

Absolute filters, especially HEPA filters, are of uncommon efficiency for removing components such as particulate materials, particulate-aerosol combinants, sublimated solids, vapors, bacteria and virus, some real gases, and the like, from gas streams. However, filters of this type are uncommonly expensive and this fact, together with the impossibility of cleaning such filters for reuse, makes them economically unattractive. Such filters experience an overly efficient particulate impaction-retention, electrostatic attraction, and adhesion to the filter matrix that causes the filter to build up particulate matter, "blinding" the filter system, thus causing a severe gas stream pressure drop and loss of gas media through-out. If mechanical energy is added to the filter system to free the matrix of accumulated particulates, the energy has to be of such magnitude that it will lead to physical damage of the filter material or the structure of the filter matrix. In most cases, without damaging the filter, it cannot be rendered reusable.

It is an object of this invention to set forth an improved absolute, fluid filter which has been rendered easily and non-destructively cleanable and, hence, reusable.

It is particularly an object of this invention to set forth an improved absolute, fluid filter, for removing components such as particular materials, particulate-aerosol combinants, sublimated solids, and the like, from gas streams, said filter having a matrix formed from a material taken from a group consisting of treated cellulose, glass, metal, and mineral fibers, fiber laminates, and synthetic polymer fibers which have been treated, filled or the like, wherein the improvement comprises means mated to said matrix material for facilitating release of said stream components from said filter, to render said filter easily and non-destructively cleanable, as aforesaid, whereby said filter, upon having been cleaned pursuant to a blinded condition thereof, manifests a change in pressure drop across the filter face which manifests restoration to fifty percent of the used or blinded condition pressure drop. For example, if the filter has a pressure drop of 1.5 inches of water at 1000 cfm of air at STP across a filter with a face area of 500 in.² and, with use, develops a pressure drop of 5 to 15 inches of water at the same condition and blinds, the filter should have to be cleaned to fifty percent of the blinded condition pressure drop, i.e. 2.5 or 7.5 inches of water, for the filter to be considered as having been rendered reusable. It is the aforesaid object of this invention, then, to disclose an improved absolute, fluid filter which can be rendered reusable.

It is another object of this invention to disclose an improved absolute, fluid filter, as aforesaid, wherein said mated means further comprises means for selectively altering physical properties of said matrix material to reduce impaction-retention of said stream components captured by said matrix material, while maintaining filtration efficiency of said filter, and rendering said filter easily and non-destructively cleanable and realizing said pressure condition thereacross as noted.

It is another object of this invention to teach an improved absolute, fluid filter, of the type noted, in which said mated means further comprises means for reducing electrostatic attraction of said matrix material for stream components captured by said matrix material.

It is another object of this invention to set forth an improved absolute, fluid filter, of the type noted, in which said mated means further comprises means for increasing diffusion capacity of said matrix material while maintaining in the latter accessible apertures or paths from where stream components captured by said matrix material can be easily removed without damage to the matrix system and, physically, to bring said filter to said fifty percent (approximately) pressure condition.

It is yet another object of this invention to disclose an improved absolute, fluid filter, according to the foregoing, in which said mated means further comprises means for protecting said matrix material from corrosive action of said stream components, or from damage arising from gross impingement, abrasion, or erosion.

It is still a further object of this invention to teach an improved absolute, fluid filter, as noted in the foregoing, in which said mated means further comprises means for rendering said stream components unreactive, non-carcinogenic, or likewise chemically stable, due to reaction of said components with said mated means, wherein said mated means comprises means for functioning as a gettering agent, and wherein said mated means comprises means for altering the chemical structure or chemical state, functionality, or reactivity of the stream components.

Further objects of this invention, as well as the novel features thereof, will become more apparent by reference to the following description.

Fluid filters, especially absolute filters of the HEPA type, defined as superinterception apparatus, and so-called "absolute" because of their extremely high retention characteristics and their ability to remove the very smallest particles and the like from gas streams, manifest both impaction and diffusion. In impaction, the to-be-filtered-out components collide with filter matrix fibers and are held--particularly because the fiber surfaces are relatively light and soft, and they readily accept the components. In diffusion, the components in the gas stream migrate from a region of high component concentration to the regions of lower concentrations, and "diffuse" from the latter to the former to accumulate on the fibers. Now, this phenomena, taken with the electro-static attraction of the fibers for the components, causes the components to cling tenaciously to the fibers. The impaction-retained components tend to be the larger thereof, whereas the diffused and electro-statically-held components are typically the smaller.

As noted previously, to effect release of the captured or entrapped components, it is the customary practice to add mechanical energy to the filter system. To release the components, a sufficient amount of energy must be added to overcome the combined impaction-retention/diffusion/electro-static forces. Untreated filters must be energized with mechanical forces that will exceed the strength of the fibers of the matrix, or the fiber-agglomerates, and the filter itself, causing destruction of the filter system. This being the state-of-the-art condition for filter systems, it is our invention to coat, formulate constituents into, or impregnate the filter matrix material with one or more materials which impart singular component release, favorably alter the physical properties of the matrix material fibers, positively control the electro-static forces of attraction for the gas stream components and accommodate the egress of captured components by providing accessible apertures or paths from whence stream components can be easily removed. In addition, the coating materials, formulated constituents, or impregnants can simultaneously provide corrosion protection to the filter matrix material to render the gas stream components harmless, or simultaneously getter certain carcinogenics or chemically unstable substances by altering their chemical reactivity or by changing their chemical structure.

According to one embodiment of the invention, a coating material comprising a mixture of graphitic powders of varing particle-size distributions in various thermoplastic and thermoset plastic matrix systems is used. This material is available commerically, under the name EPIS coating, from Epis Corporation, 70 Oakwood Drive, Glastonbury, Connecticut 06033. The coating is pressure sprayed onto one side of the filter media or matrix and drawn by vacuum on the side opposite. The coating is then allowed to reside in the filter matrix, with the spray turned off and with the vacuum on, for a period of time ranging from one to sixteen hours. The coating may be annealed or sintered after the aforesaid fluidizing treatment. According to one of our curing techniques, the matrix is air dried with 250° F. air venting to the atmosphere, for from one to ten hours. Next, the heat is raised to 450° F., this being held for from one to sixteen hours. Finally, the filter matrix is allowed to cool to room temperature. The coating finishes as a homogeneous, hard film on the fibers of the filter matrix of from 10 to 1000 microns thickness, approximately.

The foregoing treatment reduces the resistivity of the filter matrix media from 10⁻¹⁰ to 10⁻¹³ ohm-cm (dry) to 10⁻⁴ to 10⁻¹ ohm-cm depending on the composition of the coating and the thickness thereof. Coatings of this type, when formulated and applied as noted, also impart unusual corrosion resistance to the filter media because of the coating's ability to resist oxidation attack, organic-vapor solvent stress, corrosion cracking, caustic attack, inorganic gaseous attack, or salvation/dissolution attack from chlorinated hydrocarbons, or halogenated acids such as hydrofluoric acid (or hydrogen fluoride). Coating formulations which are useful for realizing the objects of this invention are set out in Table 1.

                                      TABLE 1                                      __________________________________________________________________________                  Composition of the Coating                                                                        Our Formula-                                                Prior to Coating Applica-                                                                         tion Desig-                                    Coating Solution Solute                                                                     tion and Cure (Weight/Percent)                                                                    nation                                         __________________________________________________________________________     Sodium Meta Silicate                                                                        0.5 to 85 in H.sub.2 O                                                                            SMS-1                                          (Na.sub.2 SiO.sub.3 . 9 H.sub.2 O)                                             Polymethyl siloxane                                                                         0.5 to 85 in Toluene, cyclo-                                                                      PMS-1                                          (silicone)   hexane, or chlorinated hydro-                                                  carbons or water-solvent emul-                                                 sion or flame sprayed                                             Polymethyl vinyl sil-                                                                       0.5 to 85 in Toluene, cyclo-                                                                      PVS-1                                          oxane (silicone)                                                                            hexane, or chlorinated hydro-                                                  carbons or water-solvent emul-                                                 sion flame sprayed                                                Polyphenyl methyl sil-                                                                      0.5 to 85 (in same, as above)                                                                     PPMS-1                                         oxane (silicone)                                                               Polytetrafluoroethylene                                                                     0.5 to 50 in a water emulsion                                                                     TFE-1                                                       or applied in a fluidized bed                                                  or electro-static process as                                                   neat material, flame sprayed                                      Polymethylmethacrylate                                                                      0.5 to 85 in ketones, alcohols,                                                                   PMMA-1                                         (acrylic)    freons, glycol ethers (cellu-                                                  solves, etc.) or chlorinated                                                   hydrocarbons (CH)* or as a water                                               emulsion                                                          Polyacrylic acid                                                                            0.5 to 85 in Tetrahydrofuran (THF)                                                                PAA-1                                          (acrylic acid)                                                                              N,N-Dimethyl formamide (NNDF)                                                  as a water solution                                               Acrylonitrile-butadiene                                                                     0.5 to 85 in ketones, cyclohexane,                                                                ABS-1                                          Polystyrene  NNDF, THF, or as a water-solvent                                  (ABS)        emulsion                                                          Alkyd polymers                                                                              0.5 to 85 in ketones, THF, 1,1,1,                                                                 AP-1                                           (alkyd)      3,3,3,Hexafluoro-2-propanol (HFP)                                              or as a water-solvent emulsion                                    Polyamides (nylons, ny-                                                                     0.5 to 85 in NNDF, HFP, THF, tol-                                                                 PA-1                                           lon 11, nylon 6/6, ny-                                                                      uenes or as a water-solvent emul-                                 lon 6/10, nylon-6, ny-                                                                      sion or flame sprayed or fluidized                                lon-12)      bed or electro-statically coated                                  Polyamides   0.5 to 85 in NNDF, HFP, THF, tol-                                                                 PI-1                                           (Vespels)    uene, or as a water-solvent emul-                                              sion, flame spray, fluidized bed                                               or electro-statically coated                                      Cellulosics (cellulose                                                                      0.5 to 85 in ketones, esters, aro-                                                                C-1                                            nitrate, acetate buty-                                                                      matic solvents, THF, NNDF, electro-                               rate, ethyl cellulose                                                                       static powder techniques                                          modified with urea, al-                                                        kyd and other resins)                                                          Epoxy polymers (glycid-                                                                     0.5 to 85 in THF, chlorinated hy-                                                                 EP-1                                           yl ethers of bis-                                                                           drocarbons electro-static or                                      hydroxylphenyl propane                                                                      flame spray or fluidized bed                                      catalyzed with mono-                                                           di-, or trifunctional                                                          amines or phenolic or                                                          amino resins)                                                                  Polyfluoroethylene pro-                                                                     0.5 to 85 in a water emulsion,                                                                    FEP-1                                          pylene       or as a neat solid by high tem-                                   (FEP resins) perature sintering                                                Unsaturated Polyester                                                                       0.5 to 85 in ketones, toluene,                                                                    UE-1                                           (Linear alkyd having                                                                        THF, chlorinated hydrocarbons,                                    carbon to carbon unsat-                                                                     or as a water solvent emulsion                                    uration)                                                                       Polyphenylene sulfide                                                                       Fluidized bed, electro-static                                                                     PPS-1                                          RYTON        spray or flame sprayed                                            Polyolefins  Flame spraying or fusion sin-                                                                     POE-1                                          (Polyethylene, polypro-                                                                     tering or as a water suspension                                                                   POP-1                                          pylene)      emulsion                                                          Chlorosulfonated polyeth-                                                                   0.5 to 85 in a water solvent                                                                      CSPE-1                                         ylene        emulsion system                                                   (HYPALON)                                                                      Polyphenylene Oxides                                                                        0.5 to 85 in NNDF or as a water                                                                   PPO-1                                          (VALOX)      solvent emulsion or flame sprayed,                                             electro-statically coated, or                                                  fluidized bed                                                     Polycarbonates                                                                              0.5 to 85 in THF, chlorinated hy-                                                                 PC-1                                           (LEXAN)      drocarbons or as a water solvent                                               emulsion                                                          Polysulfones 0.5 to 85 in THF or chlorinated                                                                   PS-1                                                        hydrocarbons, flame sprayed or                                                 fluidized bed application                                         Polyurethanes                                                                               0.5 to 85 in Methylene chloride,                                                                  PUES-1                                         (polyether and poly-                                                                        THF, glycol ethers toluene, 100%                                                                  PUET-1                                         ester types) solids spray or a water-solvent                                                emulsion                                                          Sodium Silicate                                                                             0.5 to 85 in a water solution of                                                                  SS-2                                           Na.sub.2 O . xSiO.sub.2 (x = 3-5)                                                           caustic                                                           Sodium disilicate                                                                           0.5 to 85 in a water solution                                                                     SS-3                                           Na.sub.2 Si.sub.2 O.sub.5                                                      Sodium othosilicate                                                                         0.5 to 85 in a water solution of                                                                  SS-4                                           Na.sub.4 SiO.sub.4                                                                          caustic                                                           Strontium orthosilicate                                                                     0.5 to 85 in a water solution of                                                                  SS-5                                           SrSiO.sub.4  caustic                                                           Potassium metasilicate                                                                      0.5 to 85 in water solution                                                                       WG-1                                           K.sub.2 Si O.sub.3 . 6H.sub.2 O                                                Potassium tetrasilicate                                                                     0.5 to 85 in water WG-2                                           K.sub.2 Si.sub.4 O . 9H.sub. 2 O                                               Lethuim Metasilicate                                                                        0.5 to 85 in dilute hydrochloric                                                                  WG-3                                           Li.sub.2 SiO.sub.3 . xH.sub.2 C (x= 1 to n)                                                 acid                                                              Calcium Metasilicate                                                                        0.5 to 85 in dilute hydrochloric                                                                  WG-4                                           CaSiO.sub.3 . xH.sub.2 O (x= 1 to n)                                                        acid                                                              Barium Metasilicate Hy-                                                                     0.5 to 85 in water WG-5                                           drate                                                                          (BaSiO.sub.3 . 6H.sub.2 O)                                                     Polyparaxylene                                                                              Vapor deposited    PPX-1                                          Organo, silane compounds                                                                    0.5 to 85 in solution of tol-                                                                     OS-1                                           (butyl-, tolyl-, pro-                                                                       uene, benzene or dioxane                                          peryl or similar anal-                                                         ogue types)                                                                    __________________________________________________________________________      *See Table 3 for chemical names of solvents shown as abbreviations.      

Alternatively, the foregoing coating compositions, which are not deemed to be exhaustive, may be filled with various agents to improve the performance of the filter matrix. In Table 2 which follows, preferred fillers for the coating compositions of Table 1 are listed. The compositions of Table 1, or those with the fillers of Table 2 may be used on the filter matrix fibers, or they may be impregnated into the matrix fibers; as to the latter, more follows in the ensuing text.

                                      TABLE 2                                      __________________________________________________________________________                      Range of Compositions                                         Metal/Non-Metallic Filler*                                                                      Weight/Percent Composition                                                                   Weight/Percent Binder**                                                                     Weight/Percent                     __________________________________________________________________________                                                 Vehicle                            Stainless steel powder                                                                          0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Silver plated on nickel                                                                         0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Silver plated on carbon                                                                         0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Silver plated on graphite                                                                       01. to 25     0.3 to 10.0  99.6 to 65.0                       Iridium plated on graphite                                                                      0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Aluminum-zinc 40:60                                                                             0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Chromium-nickel 55:45                                                                           0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Copper chromium 99:1                                                                            0.1 to 25     0.3 to 10.0  99.6 to 65.0                       INCONEL 600      0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Titanium-aluminum 65:35                                                                         0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Zirconium-nickel 70:30                                                                          0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Titanium carbide 0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Noury Ketjenblack-EC.sup.(tm)                                                                   0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Boron carbide    0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Columbium (niobium) carbide                                                                     0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Tantalum carbide 0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Tungsten-titanium carbide                                                                       0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Zirconium carbide                                                                               0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Petroleum coke base carbon                                                                      0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Anthracite coal base carbon                                                                     0.1 to 25     0.3 to 10.0  99.6 to 65.0                       General purpose industrial                                                                      0.1 to 25     0.3 to 10.0  99.6 to 65.0                       grade graphite                                                                 Premium grade industrial                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       grade graphite                                                                 Cabon-graphite alloys                                                                           0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Recrystallized graphite                                                                         0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Pyrolytic graphite                                                                              0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Highly ordered pyrolytic                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       graphite                                                                       Ceylon natural graphite                                                                         0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Madagascar natural graphite                                                                     0.1 to 25     0.3 to 10.0  99.6 to 65.0                       Polyfluorinated graphite                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       intercalcates                                                                  Solution reacted/reduced                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       molecular sieves***                                                            Vapor deposited molecular                                                                       0.1 to 25     0.3 to 10.0  99.6 to 65.0                       sieves****                                                                     WF.sub.6 or MoFe.sub.6 graphite inter-                                                          0.1 to 25     0.3 to 10.0  99.6 to 65.0                       calates [C(11 ± 1)n MoF.sub.6                                               and (C(14 ± 1)n WF.sub.6 ]                                                  Graphite intercalates of                                                                        0.1 to 25     0.3 to 10.0  99.6 to. 65.0                      nitric acid [C.sub.16 HNO.sub.3,                                               C.sub.15 HNO.sub.3, C.sub.24 /C.sub.25 HNC.sub.3                               or C(8 + 2x).sub.n N.sub.2 O.sub.5 . xH.sub.2 O]                               Graphite intercalates of                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       trifluoromethanesulfonic                                                       acid [C.sub.26 + CF.sub.3 SO.sub.3.sup.- . 1.63                                CF.sub.3 SO.sub.3 H]                                                           Graphite intercalates of                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       sulfuric acid [C.sub.24 + HSO.sub.4.sup.- .                                    xH.sub.2 SO.sub.4 where x = 2.37                                               to 2.63]                                                                       Graphite intercalates of                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       metal chlorides [e.g.                                                          Cn Fe Cl(.sub.3 - x), C.sub.26 Fe                                              Cl.sub.3, C.sub.24 Fe Cl.sub.2, where                                          metal chlorides can be                                                         MoCl.sub.5, MnCl.sub.2 , FeCl.sub.3, Fe                                        Cl.sub.2, CoCl.sub.2, NiCl.sub.2, CuCl.sub.2 ]                                 Graphite intercalates of al-                                                                    0.1 to 25     0.3 to 10.0  99.6 to 65.0                       kali metals and metal ch-                                                      loride solvent complexes                                                       [Li.sub.3 CmFeCl.sub.3  Tetrahydro-                                            furan).sub.3 ]                                                                 Graphite intercalates of                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       mixed metal chlorides                                                          and bromides [C.sub.13.2 Tl                                                    Cl.sub.1.8 Br.sub.1.7, C.sub.30 Tl Br                                          3.4]                                                                           Graphite intercalates of                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       metal bromides [C.sub.25.3                                                     Tl Br.sub.3.2 . Br.sub.2 -TlBr.sub.3, where                                    other metal bromides may                                                       be Cd Br.sub.2, Hg Br.sub.2 Al Br.sub.3                                        and Ga Br.sub.3 ]                                                              Graphite intercalates of al-                                                                    0.1 to 25     0.3 to 10.0  99.6 to 65.0                       kali metals and benzene                                                        [MC.sub.24 (C.sub.6 H.sub.6)x or KC.sub.24 (C.sub.6                            H.sub.6)x]                                                                     Simple graphite intercal-                                                                       0.1 to 25     0.3 to 10.0  99.6 to 65.0                       ates of alkali metals                                                          [LiC.sub.6, KC.sub.8, etc. or                                                  KC.sub.24, LiC.sub.12 , KC.sub.36 ]                                            Graphite intercalates of                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       boron trifluoride                                                              [Cn-OC.sub.2 H.sub.5 . xBF.sub.3 ]                                             Graphite-antimony penta-                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       fluoride intercalate                                                           [Cx . SbF.sub.5 ]                                                              Layer intercalated dich-                                                                        0.1 to 25     0.3 to 10.0  99.6 to 65.0                       olcoginides                                                                    [L1TiS.sub.2, TaCs(NH.sub.3)]                                                  MoS.sub.2 intercalation com-                                                                    0.1 to 25     0.3 to 10.0  99.6 to 65.0                       pounds                                                                         [AxMoS.sub.2 where A = Na, K,                                                  Rb, Cs, Ca, and Sr]                                                            Metal oxide lamellar inter-                                                                     0.1 to 25     0.3 to 10.0  99.6 to 65.0                       calation compounds                                                             [AxMO.sub.2 where A = Na, K, etc.                                              and M = Cr, Mn, Co]                                                            __________________________________________________________________________      *600 mesh or smaller particle size                                             **based on solids content                                                      ***reacted with salt of nickel, gold, platinum, paladium, iridium, silver      or alloys of each                                                              ****noble metals, silver, or alloys of each                              

Since most coatings or impregnant must be processed onto or into the filter media, a vehicle, such as a solvent, must be used to allow the coating to form a homogeneous film or to penetrate the filter media fibers. Table 3 lists preferred vehicles.

                  TABLE 3                                                          ______________________________________                                         H.sub.2 O                                                                      H.sub.2 O/NaOH, Ca(OH).sub.2, KOH                                              N.sub.2 H.sub.4 /H.sub.2 O                                                     Isopropanol (IPA)                                                              Isopropanol and water (IPA + H.sub.2 O)                                        Tetrahydrofuran (THF)                                                          N,N'-dimethyl formamide (NNDF)                                                 Acetone (ACE)                                                                  Methyl ethyl ketone (MEK)                                                      Freon solvents (FR)                                                            Carbitol                                                                       Cellosolve polygycol ethers                                                    Propasol                                                                       Methyl isobutyl ketone (MIBK)                                                  Methylene chloride (MC)                                                        2,2,2 Trifluoroethanol (2-TFE)                                                 1,1,1,3,3,3, Hexafluoro-2-propanol (1-3-HFP)                                   Cyclohexane (CH)                                                               H.sub.2 O + amonic and/or cationic surfactants (HS)                            Toluene (Tol)                                                                  Benzene (Ben)                                                                  Methanol (M)                                                                   Ethanol (E)                                                                    ______________________________________                                    

Accordingly, a typical coating formulation container a "binder" (from Table 1), a vehicle (i.e., Tables 3), or a filler agent (from Table 2) may be applied to, or impregnated into matrix fibers, to impart the inventive properties thereto, and yield the improved filter, and such typical formulations are set out in Table 4.

                                      TABLE 4                                      __________________________________________________________________________     Formulation                                                                           Filler*    Binder*  Vehicle***                                                                               Surfactants                               number Type    W/O                                                                               Type W/O*                                                                               Type   W/O                                                                               Type  W/O                                 __________________________________________________________________________     1      Ti C**  15.0                                                                              PMEA-1                                                                              7.0 IPA    85.0                                                                              --    --                                  2      Graphite***                                                                            6.0                                                                               PMMA-1                                                                              6.8 MC     94.0                                                                              --    --                                  3      BaC**   11.0                                                                              SMS-1                                                                               5.0 H.sub.2 O/NaOH                                                                        89.0                                                                              SF1066****                                                                           0.01                                __________________________________________________________________________      *see Table 2;                                                                  **see Table 1;                                                                 ***see Table 3 (the term "vehicle" is the terminology for a solvent or         solvent mixture that allows film formation in a coating by evaporative         loss crosslinking, or emulsion formation);                                     ****trademark of the General Electric Co. for its polyalkylene glycol          siloxane-                                                                

    4      Stainless                                                                              2.0                                                                               PA-1 25.0                                                                               NMDF   98.0                                                                              --    --                                         steel**                                                                 5      Silver on                                                                              25 EP-1 10.0                                                                               THF    75 --    --                                         graphite                                                                       **                                                                      6      Polyfluorinated                                                                graphite in-                                                                   tercalate                                                                      ***                                                                                    20 TFE  80  (none) (flame sprays after                                                            cold blending with                                                             sintering at 500° F.)                 7      KC.sub.24 (C.sub.6 H.sub.6)x                                                              TFE and                                                                             35  Freon-111                                                                             65 --    --                                                    graphite                                                     8      Cx . SbF.sub.5                                                                            TFE and                                                                             10  Freon-111                                                                             90 --    --                                                    graphite                                                     9      Li.sub.3 CnFeCl.sub.3                                                                     TFE and                                                                             30  THF    70 --    --                                         (tetramethyl-                                                                             graphite                                                            ene oxide)                                                              10     C.sub.13.2 TlCl.sub.1.8                                                                   TFE and                                                                             25  Freon-111                                                                             75 --    --                                         Br.sub.1.7 graphite                                                     __________________________________________________________________________      *Based on solids content after vehicle evaporation                             **600 mesh or less, dried                                                      ***Northern Michigan or Canadian graphite highly ordered or pyrolytic          graphite  1000 mesh or less                                              

Formulations numbers #1 through #5 are intended for purposes of accommodating gas stream component release, as priorly described. Formulation #2 and other polytetrafluoroethylene (Table 1) and polyfluoroethylene propylene unfilled coatings impart "self-cleaning" and corrosion protection, while formulations #6 through #10, as well as graphite intercalates of boron trifluoride act a gettering agents (e.g., polymerization of polyvinyl chloride monomer to a polymerized state to remove the monomer from a process gas stream).

The media of the filter matrix to be coated can be made from treated cellulostics, glass, pyroceramic or ceramic fibers, minerals of various types, metals or preoxidizing of calorized or plated metals, polymeric materials, and polymer composites, as described previously.

In our preferred embodiment, the matrix is prepared from a filter media material comprising a compound of polyethylene and ketjenblack-EC (the trademark for an electrical conductive carbon black manufactured by the Noury Chemical Company, New York). Typically, the constituent elements are cold blended and extruded into fibers, or formed by explosive reticulation techniques. The extruded or otherwise formed fibers are then woven, compressed or hand layed-up into a desired filter configuration. Simply by adjusting the amount of fiber "filler", i.e., the ketjenblack-EC, it is possible to alter the component (i.e, to-be-filtered-out particles, etc.)-to-media adhesion. That is, differences in the net component (particle)-media volume resistivity, and the net overall volume resistivity of the media surface and/or the fibers, to determine the amount of energy which will be required to break or neutralize the forces of attraction between the components (particles) and media, can be effected by the filler content. Ketjenblack-EC is but one filler which may be used for this purpose, and is mentioned, here, only for exemplary purposes. Other suitable fillers are listed in Table 2.

As noted priorly, various polymeric materials may be used as filter media fibers or material. Table 5 lists polymeric materials that may act as filter media matrices for which other and various fillers are added to alter the properties of the media.

                  TABLE 5                                                          ______________________________________                                         Generic name      Common name                                                  ______________________________________                                         Polymethyl siloxane                                                                              silicone                                                     Polymethyl vinyl siloxane                                                                        silicone                                                     Polyphenyl methyl siloxane                                                                       silicone                                                     Polytetrafluoroethylene                                                                          Teflon (tm, DuPont), TFE                                     Polymethylmethacrylate                                                                           Lucite (tm, DuPont) acrylic                                  Polyacrylic acids --                                                           Acrylonitrile-butadiene                                                                          ABS                                                           polystyrene                                                                   Alkyd polymers    alkyds                                                       Polyamides        Nylon 6, 6/6, 11, 12,6/10                                    Polyimides        Vespel (tm, DuPont)                                          Polyamide-imides  Torlon (tm, Amoco Chemical)                                  Cellulosics       cellulose nitrate, - acetate                                                   butyrate, ethyl cellulose mod-                                                 ified with urea, alkyd, and                                                    other resins                                                 Epoxy polymers    glycidyl ethers of bis-hydroxy                                                 phenyl propane catalyzed with                                                  mono-, di-, or trifunctional                                                   amines or phenolic or amino                                                    resins                                                       Polyfluoroethylene propylene                                                                     FEP resins (DuPont)                                          Unsaturated polyester polymers                                                                   Linear alkyd having carbon                                                     to carbon unsaturation                                       Polyphenylene sulfide                                                                            RYTON (Phillips Petroleum)                                   Polyolefins       polyethylene, polypropylene                                                    etc.                                                         Chlorosulfonated polyethylene                                                                    HYPALON (DuPont)                                             Polyphenylene oxide polymers                                                                     VALOX (G. E.)                                                Polycarbonate polymers                                                                           LEXAN (G. E.)                                                Polyphenylene     --                                                           Polyarylsulfones  --                                                           Polyurethane      polyester or polyether types                                                   mono-methyl - or trimethyl                                                     diisocegente                                                 Polyparaxylene    PARALIN                                                      ______________________________________                                    

These polymeric materials may also contain filler agents which will modify their physical properties in such a fashion as to control gas stream component impaction-retention, modify surface specific resistivity, and provide a relatively easy means for component release from the filter matrix with the introduction of mechanical, or other, energy forms. Filler agents for the listed polymeric materials, and concentration ranges therefor, are listed in Table 6.

                  TABLE 6                                                          ______________________________________                                                                         Binder or                                                             Filter   Matrix                                         Metal/Non-Metallic Filler**                                                                           (phr)*   (phr)                                          ______________________________________                                         Stainless steel powder, type 300 & 400                                                                1.0 to 350                                                                              100                                            series, 17-4 PH etc.                                                           Silver plated nickel (6 to 20 w/o silver                                                              1.0 to 350                                                                              100                                            on nickel)                                                                     Silver plated carbon (1 to 13 w/o silver                                                              1.0 to 350                                                                              100                                            on carbon)                                                                     Silver plated graphite (1 to 16 w/o silver                                                            1.0 to 350                                                                              100                                            on graphite; see Table 2 for types of                                          graphite)                                                                      Iridium plated graphite (0.5 to 6 w/o silver                                                          1.0 to 350                                                                              100                                            on graphite; see Table 2 for types of                                          graphite)                                                                      Aluminum-zinc (40:60)  1.0 to 350                                                                              100                                            Chromium-nickel (55:45)                                                                               1.0 to 350                                                                              100                                            Copper-chromium (99:1) 1.0 to 350                                                                              100                                            INCONEL 600.sup.(1)    1.0 to 350                                                                              100                                            Titanium aluminum (65:35)                                                                             1.0 to 350                                                                              100                                            Zirconium nickel (70:30)                                                                              1.0 to 350                                                                              100                                            Titanium carbide       1.0 to 350                                                                              100                                            Noury ketjenblack-EC.sup.(tm)                                                                         1.0 to 350                                                                              100                                            Boron carbide          1.0 to 350                                                                              100                                            Columbium (niobium) carbide                                                                           1.0 to 350                                                                              100                                            Tantalum carbide       1.0 to 350                                                                              100                                            Tungsten titanium carbide                                                                             1.0 to 350                                                                              100                                            Zirconium carbide      1.0 to 350                                                                              100                                            Petroleum coke base carbon                                                                            1.0 to 350                                                                              100                                            Anthracite coal base carbon                                                                           1.0 to 350                                                                              100                                            General purpose industrial grade graphite                                                             1.0 to 350                                                                              100                                            Carbon-graphite alloys 1.0 to 350                                                                              100                                            Premium grade industrial grade graphite                                                               1.0 to 350                                                                              100                                            Recrystallized graphite                                                                               1.0 to 350                                                                              100                                            Pyrolytic graphite     1.0 to 350                                                                              100                                            Highly ordered pyrolytic graphite (HOPG)                                                              1.0 to 350                                                                              100                                            Ceylon natural graphite                                                                               1.0 to 350                                                                              100                                            Madagascar natural graphite                                                                           1.0 to 350                                                                              100                                            Polyfluorinated graphite intercalates                                                                 1.0 to 350                                                                              100                                            Solution reacted/reduced*** molecular                                                                 1.0 to 350                                                                              100                                            sieves (1A to 20A pore sizes)                                                  Vapor deposited molecular sieves                                                                      1.0 to 350                                                                              100                                            (1A to 20A pore sizes)                                                         C(1.1 ± 1).sub.n MoF.sub.6 or C.sub.(14 ± 1)n WF.sub.6                                          1.0 to 350                                                                              100                                            graphite intercalates                                                          Graphite intercalates of nitric acid                                                                  1.0 to 350                                                                              100                                            (see Table 2)                                                                  Graphite intercalates of trifluorometh-                                                               1.0 to 350                                                                              100                                            anesulfonic acid (see Table 2)                                                 Graphite intercalates of sulfuric acid                                                                1.0 to 350                                                                              100                                            (see Table 2)                                                                  Graphite intercalates of metal chlorides                                                              1.0 to 350                                                                              100                                            (see Table 2)                                                                  Graphite intercalates of alkali metals and                                                            1.0 to 350                                                                              100                                            metal chloride solvent complexes                                               (see Table 2)                                                                  Graphite intercalates of mixed metal chlor-                                                           1.0 to 350                                                                              100                                            ides and bromides                                                              (see Table 2)                                                                  Graphite intercalates of metal bromides                                                               1.0 to 350                                                                              100                                            (see Table 3)                                                                  Graphite intercalates of alkali metals and                                                            1.0 to 350                                                                              100                                            benzene                                                                        (see Table 2)                                                                  Simple graphite intercalates of alkali metals                                                         1.0 to 350                                                                              100                                            (see Table 2)                                                                  Graphite intercalates of boron trifluoride                                                            1.0 to 350                                                                              100                                            (see Table 2)                                                                  Graphite-antimony penta-fluoride inter-                                                               1.0 to 350                                                                              100                                            calates (see Table 2)                                                          Layer intercalated dihalogenides                                                                      1.0 to 350                                                                              100                                            (see Table 2)                                                                  MoS.sub.2 intercalation compounds                                                                     1.0 to 350                                                                              100                                            (see Table 2)                                                                  Metal oxide lamellar intercalations                                                                   1.0 to 350                                                                              100                                            (see Table 2)                                                                  ______________________________________                                          *phr: parts per hundred resin or polymer binder.                               .sup.(1) registered trademark for an austenitic high nickel alloy              manufactured by the International Nickel Corp., Tuxedo, New York         

While we have described our invention is connection with specific embodiments thereof it is to be clearly understood that this is done only by way of example and not as a limitation to the scope of the invention as set forth in the objects thereof and in the appended claims. 

We claim:
 1. An improved absolute, fluid filter, for removing components such as particulate materials, particulate-aerosol combinants, sublimated solids, and the like, from gas streams, said filter having a matrix formed from one material taken from a group of materials consisting of treated paper, glass, and mineral fibers, polymeric fibers, and cellulostic fibers, wherein the improvement comprises:means coating said matrix material, and hardening, strengthening, and toughening said matrix material, for enhancing components-release from said filter, whereby said filter is rendered cleanable and resuable; and said matrix material comprises a filter medium formed of fibers which latter fibers are formed of a compound of a polymer and a filler agent.
 2. An improved absolute, fluid filter, according to claim 1, wherein:said coating means further comprises means for altering the physical properties of the surface of said matrix material, to reduce impaction-retention of said components by said matrix material.
 3. An improved absolute, fluid filter, according to claim 1, wherein:said coating means further comprises means for reducing electro-static attraction of said matrix material for said components.
 4. An improved absolute, fluid filter, according to claim 1, wherein:said coating means further comprises means for increasing diffusion capacity of said matrix material.
 5. An improved absolute, fluid filter, according to claim 1, wherein:said coating means further comprises means for imparting corrosion protection to said filter matrix.
 6. An improved absolute, fluid filter, according to claim 1, wherein:said filler agent comprises carbon black, and said polymer comprises polyethylene.
 7. An improved absolute, fluid filter, according to claim 1, wherein:said filler agent comprises a graphite intercalate, whereby said graphite intercalate comprises means for gettering carcinogenic and like harmful vapors and/or particulates borne by said gas streams by altering said carcinogenic and like vapors and/or particulates chemical reactivity or changing the chemical structure thereof.
 8. An improved absolute, fluid filter, for removing components such as particulate materials, particulate-aerosol combinants, sublimated solids, and the like, from gas streams, said filter having a matrix formed from a material taken from a group of materials consisting of treated paper, glass, and mineral fibers, ceramic fibers, polymeric fibers, and cellulostic fibers, wherein the improvement comprises:means coating said matrix material, and hardening, strengthening, and toughening said matrix material, for enhancing components-release from said filter, whereby said filter is rendered cleanable and reusable; wherein said coating means comprises a filler agent; and said filler agent comprises means for gettering carcinogenic and like harmful vapors and/or particulates borne by said gas streams by altering said carcinogenic and like vapors and/or particulate chemical reactivity or changing the chemical structure thereof. 